How Manufacturing Jobs Will Change in the Next Two Decades?

Mrunmayee Honrao | July 12, 2022 | 903 views | Read time: 02:08 min
HOW MANUFACTURING ARTICLE
Anticipating the future of manufacturing. Let’s dig deeper into how to achieve it!

Over the past five years, forecasts regarding manufacturing employment haven't moved much; the assumption has been that millions of open positions will go unfulfilled by 2025. According to predictions, there would still be 2 to 3 million unfilled jobs in the manufacturing sector even in 2030. Manufacturers and software developers won't just stand around and contemplate what to do, though. Let’s predict what the manufacturing industry will look like.

Forced Replacements:
Employers are having a very hard time finding people eager to work in both the manufacturing and service sectors. Manufacturers won't turn down business because the industry is booming. They will have to move more quickly with their automation plans. The need to conduct business and find cost-effective ways to meet customer demand is at issue. Humans are causing the crisis that will lead to their own replacement by becoming more expensive and unreliable employment solutions—the typical self-fulfilling prophecy.

AoT- The Automation of Things:
Industrial IoT and the Internet of Things (IoT) will evolve into the AoT, or Automation of Things. This has been happening quickly over the past five years, and it is speeding up as manufacturers determine what tasks can be completed by software, robotics, and machines.

It is a symphony of movement, yet automation has displaced a number of workers who either need to be retrained for a different position or are taken into account when calculating productivity. In science fiction writing from just 20 years ago, the idea of machines developing machines and even creating smarter machines is becoming a reality.

From Inquiry to Invoice:
Software developers, machine builders, futuristic engineers, financial directors, supply chain managers—everyone in organisations is planning solutions for the manufacturing industry five, ten, even twenty years into the future. From the first enquiry to the last billing, every manufacturing job will change, most likely faster than before. Every job function performed now, not simply the open positions, is called into question by the lack of willing workers for the future.

This is manufacturing revolutionised: the continuing, relentless, perpetual adaptation and modification of work processes to maintain manufacturers' competitiveness in a local to global economy. Those who automate stand a chance of thriving, while those who do nothing will follow in the footsteps of the horse and buggy.

Spotlight

LDV Consultants

LDV is an engineering firm with a team of talented people renowned for being experts in their field of activity. The company offers case studies, advanced design and implementation services for industrial projects. To carry out its projects, LDV relies on state-of-the-art software for design, 3D modeling, 3D printing, computer simulation and automation.

OTHER ARTICLES
MANUFACTURING TECHNOLOGY, ADDITIVE MANUFACTURING

3 New Design Goals to Fuel Innovation Easily with Additive Manufacturing

Article | September 30, 2022

Stand out with long-term scalability with AM by fuelling innovation in the design process. Staying relevant has now become critical when it comes to additive manufacturing. It is, therefore, essential to make decisions by deep diving into the right people, processes, and technologies at the right moment to keep up the momentum when using AM processes. Better Product Designs with Design Innovation Framework for Additive Manufacturing Additive manufacturers have started using the product design innovation (DI) framework. It serves additive manufacturing part designs with increased - Proof of value (POV) - Helps your business stand out in the market with superior quality design. Proof of concept (POC) – Ensures that the design will function as intended. Proof of market (POM) – Defines the level of success of a design at scale for mass market production. Proof of impact (POI) – Using simulation to mitigate design failures and ensure that your designs last longer. As a result of the design innovation framework, additive manufacturing parts are manufactured faster and with better quality while lowering material costs. Furthermore, with more and more additive manufacturing companies implementing design innovation frameworks for their production, it is possible to tap into the opportunities of innovative product design at an early stage to give your production a competitive edge. Therefore, in the quest to grab an early market share in additive manufacturing for new, small and medium enterprises, the design innovation framework will play a pivotal role. Your product design, product research and development teams will implement the DI framework for the scalability of your additive manufacturing units. Fuel innovation and design thinking to produce innovative product design ideas with the goals and practices in the DI framework, as mentioned below. They infuse your designs with the design innovation framework to get quality manufactured products. Strategic Business Growth with AM Design to Fuel Innovation for Small and Medium Enterprises Fuel innovation in how you design additive manufacturing parts with strategic business growth. By keeping three goals in mind during the design process, you can use cutting-edge research in additive manufacturing design to help your business grow. Increase Speed: Create highly detailed intermediate manufacturing goods. As additive manufacturing is still in the transition phase, creating highly complex designs on a small scale is easy. But for large-scale AM production, intermediate goods like molds make it easy and quick to make intricate details. Build upon the existing DI (Design Innovation) process. Make use of designs from the design repositories and similar component geometry. Choose an orientation that does not need additional support. Save resources by preferring cellular structure over solid volumes. Make use of internal volumes to add more functionality. Print functional joints to save assembly steps and time. Standardize the assembly process to save production time. Use high-resolution STL files to reach your maximum design potential. Improve printability by scaling the artifacts and considering the resolution of the process. Manage Quality: Reduce residual stress to keep the parts from warping. Materials must be qualified and characterized to be micro-structured. Adhere to industry standards to get consistent, reliable, and repeatable outputs. While successful designs with strategic AM innovation can be beneficial to Create new products with AM. Create new business models with AM, AM helps to advance product design processes. Create new classes of AM technologies. Save Costs: Save costs by creating multifunctional parts. Choose a cheaper alternative material that satisfies the same constraints. Go for an economical assembly by manufacturing high-performing parts. Implement a cellular structure to reduce the quantity of material used. Innovate designs that bring down costs through accurate simulation of manufacturing constraints. Use composite material that satisfies the applied constraints. Risk Factors to Consider and Mitigate When Investing in AM The Risk of Data Leakage Cyber security is a critical component when storing design file data on the cloud and sharing it over the network. Getting a design file copied, stolen, altered, infected, or deleted causes a loss of time and sometimes money. Attackers ask for a ransom by putting a worm in your design file or blocking access. A highly private network with encrypted personal cloud connectivity and highly secure access control are the answers to mitigating the risk of cyber-attacks. Mitigating the risk is done with several measures. These include doing regular risk assessments, using a single design with no mistakes as a base for other design models, using advanced RFID tags to make products with AM, and practicing individual vigilance through awareness. The Risk of Poor Quality When outsourcing your manufacturing to an AM unit, the risk of low quality of the manufactured products is high. You cannot offer a warranty or guarantee when outsourcing production. Also, there is a risk that companies facing losses due to faulty products might want to claim for their losses. Quality improves when you give much attention to post-processing the manufactured parts. Leading Industries Using the DI Framework in AM: Aerospace Automotive Consumer products Energy Infrastructure Medical and pharmaceutical Food Sports Accessories Final Thoughts: Gearing up with innovation in additive manufacturing starts with three design goals. These include increasing speed, managing quality, and saving costs, which can help you achieve strategic business growth to scale for the long-term for business resilience. In addition, the DI framework for AM helps your large enterprise use progressive design thinking. So, now is the best time to invest into new ways to design products using design and management software for additive manufacturing.

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ADDITIVE MANUFACTURING

10 Best Features to Look for in an Additive Manufacturing Software

Article | September 20, 2022

The day is near when additive manufacturing (AM) will become production-ready, with many technological advancements in additive manufacturing software. Although taking care of manual post-processing is one of the challenges AM faces, methods to reduce it are on the rise with the help of better additive manufacturing software. Multilayer 3D printing revolutionises production, combining to fuel innovation. Let's find out what software features for additive manufacturing can help solve the problems that arise. How Does Additive Manufacturing Software Aid in the Resolution of Issues in Large Enterprises? For large enterprises, additive manufacturing software champions innovation to achieve long-term goals and resolve problems with these solutions. Sustainability in Manufacturing: A minimum wastage of material makes additive manufacturing sustainable. Therefore, achieve your goal of implementing sustainable practises quickly. Decrease Costs: Cut costs by automation, optimization, and simulation to help decrease costs at all stages of an AM workflow. Optimize Inventory: You can get rid of a lot of your inventory if you know exactly what material each part needs and how much of it you need. Easy Material Replacement: Simulate results for different materials and easily replace your material for printing as per availability. Combine multiple materials to strengthen parts and make them versatile. Generate Multiple Design Versions: The generative design approach allows you to generate multiple versions of a complex part subject to constraints. As a result, you reduce the guesswork and improve the quality quickly and efficiently. With AI designs in additive manufacturing software, you get progressive design innovation and development. As AM software aids large enterprises to fuel innovation in design implementation and follow the recent trends in additive manufacturing, AM processes such as binder jetting, metal additive manufacturing work and other types of additive manufacturing benefit from them as well. Explore the benefits of additive manufacturing for small and medium enterprises in our next segment which will cover additive manufacturing overview. Learn in-depth insights into why AM software are becoming a choice of medium sized businesses as well. Three Reasons to Use Additive Manufacturing Software To realize the full potential of additive manufacturing, good software plays a vital role in determining the quality of the output printed. Find out exactly how software for additive manufacturing could help your designs and your business grow. Automate: Automated light weighting, part consolidation, and generative design help unlock the scalability of your designs in terms of functionality and cost efficiency. Additive manufacturing software helps you achieve these efficiently. Optimize: Streamline the AM workflow using additive MES (manufacturing execution system) software. Increasing the printing process's efficiency helps reduce the time needed to print and improves the quality of the part manufactured and the machine utilization rates. Simulate and Test: Make your part design model subject to different constraints with the help of simulation using AM software. Reach excellence in additive manufacturing parts for real-life situations. Build a failsafe part using automated mathematical analysis. Using additive manufacturing software can help you overcome many challenges. However, while considering AM software, please note its shortcomings. The Big Challenge in Additive Manufacturing Software At each step of additive manufacturing, separate software is essential to perform different functions. AM software performs many critical functions, such as step-by-step design, printability checks, light weighting, adding support, and simulation analysis. However, a single software package does not exist that addresses all aspects of additive manufacturing. Software integration resolves this issue effectively and efficiently. Additive Manufacturing Software Functions for Large Enterprises For large enterprises, it is essential to get the accurate design of complex parts and manage the AM production workflow right. Additive manufacturing software brings both functions to the table. Learn how additive manufacturing fuels innovation in design. Features of Additive Manufacturing software for design and managing workflow are as under: Top Features of Additive Manufacturing (DfAM) Software: It is easy to nurture the design thinking process by arming with suitable DfAM software for medium and large enterprises. Their features are as follows: Topology Optimization: Using mathematical tools to simulate the material distribution of the part is topology optimization. Making changes in the material distribution can remove inefficient regions from the design. In addition, automated topology optimization helps quickly produce complex geometrical structures using DfAM software. Lattice Pattern Generation: Using additive manufacturing software, we generate 3D lattice patterns automatically. They significantly save costs by using a lower volume of materials and helping design multifunctional parts and structures. In addition, they reduce their weight and cost, making them flexible and stress-resistant. Generative Design: The power of generative design lies in designing to match all the design parameters, applying all constraints, and generating multiple design candidates quickly and efficiently. These include material type, shape, density, orientation, and more. This design evolves your part per your required parameters and expedites optimization. Automatic Light-Weighting: Applying light weighting techniques such as materials selection, part consolidation, conformal ribbing, lattice structures, and optimization of topology helps further bring down the costs. With DfAM software, the process is automatic and easy. Automated Part Consolidation: Creating a single part that can perform multiple functions saves space and costs, boosting efficiency. However, deciding whether consolidation can conform to other system components can sometimes be challenging. Find a way to solve this problem with the help of a feature in additive manufacturing software that automatically groups parts together. Stress, Heat, and Impact Simulation: Predict the part design's stress, heat, and impact-taking ability in the case of light weighting. Simulation helps test the part using different materials, keeping in mind their temperature, stress, and impact resistance. For instance, DfAM software tests a part before printing the prototype, utilizing this feature. Build Failure Prediction: Mathematical analysis-backed calculations of distortions and validations help in predicting building failures. A DfAM also helps predict building failures before they happen by calculating the efficiency over time. This makes the parts more durable. 3D Packing: Find the ideal shipping container and calculate its size, number, and maximum capacity using 3D packing technology. This automated software tool helps you efficiently send your shipments to your clients. Machine Parameters: Select the process parameters as per the part or product requirements. Apply different constraints to simulate the work using additive manufacturing software. Adjust them as per the desired characteristics in the output part using the software. Print Failure Prediction: Analyzing a designed model for deformation, cracks, stress, and growth is possible with software simulation. In addition, this data helps detect probable print failure. An end-to-end workflow automation solution using additive manufacturing MES software works in sync with your existing software. Learn about its features as below: Features of Good Additive Manufacturing MES Software: Order Management: Receiving, organizing, and processing orders for printing is excellent at order management. Part/file Analysis: The main tasks of part or file analysis are to look at the part or file's feasibility under different constraints and suggest ways to fix it. Production Planning: Production planning helps automate preparation for the production cycle. Instant Quotations: With built-in quotation management, create, approve, present, accept or reject quotations and place an order for part printing. Material and Inventory Management: It takes care of choosing the right material for the part and making sure that enough of that material is in stock to make it. Nesting: With nesting calculations, automatic space optimization on the print bed is possible Post-Processing Management: Remove defects after manufacturing using a streamlined post-processing management system. Quality Inspection and Management: Use the Quality Management System to remove possible distortions and deformations under constraints. Order Tracking and Traceability: Get the status of print order processing at all times with accurate tracking during the AM process. Analytics: Get a complete analysis of the data generated at each step of your AM workflow. If getting powerful software is not something you are considering at the moment, you can still welcome a host of new additions with the help of software integrations. Explore more about it down below. Use Software Integrations to Connect Existing Software: Link your existing software to your additive manufacturing software for seamless data sharing over the additive MES using software integration. For instance, connect existing AM workflows, 3D modelling simulations, import CAD files of models, send and receive purchase orders, and do much more with a one-stop MES solution. With the right integrations, you can add the features your software needs to stay current. When considering purchasing an AM software package, the initial, operational, training, and time required to learn it must all be calculated. For large enterprises, the reduction in inventory size and better accuracy with AM software bring down the cost of additive manufacturing production. Let us take a deep dive into the estimation of AM software. Estimation for Additive Manufacturing Software Setup and Operations: Depending upon the feature set of the additive manufacturing software, it might cost from $120/month/user to $25,000 annually or more. The significant influence is the implementation time and user-friendliness, like any other software for your business or enterprise. Several additive manufacturing and management software might have features that you may not need right now. However, upon scaling your business, they will become a necessity. You may want to consider software with supporting API integrations to smoothly transition from your existing software to advanced additive manufacturing software. As a result, you will reduce your cost of training the personnel while boosting their efficiency manifold. Additive Manufacturing Software's Future Scope Custom printing of complex geometrical structures with additive manufacturing is no longer restricted just to rapid prototyping. With the advent of volumetric additive manufacturing, it is now possible to print all the target points in the geometry simultaneously. Achieve this with the help of rotating the resin container with the guidance of a digital light projection system. In addition, this method can reduce some of the post-processing involved in an additive manufacturing production workflow to help make additive manufacturing more reliable and efficient. The future of additive manufacturing looks supremely promising with several applications of volumetric additive manufacturing. These include aerospace, medical, transportation, energy, consumer products and the like. In the future, revolutionary multifunctional parts will be created using automated part consolidation to optimize part designs like never before. Furthermore, using AI, accuracy is bound to improve. Conclusion: Building a resilient business for medium and large enterprises to unlock scalability is easy with a range of additive manufacturing software. Leveraging AM software saves turn-around time from researching to the production line with a stable and better design. It boosts ROI by streamlining your additive manufacturing workflows and cutting production costs using additive manufacturing software. Software integrations help enterprises stay current with all the features needed and introduced from time to time to make additive manufacturing practical. Using AI with AM software is becoming the norm for both medium and large AM companies that want to get a head start on the market.

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Achieving Interoperability in an Industry 4.0 Factory

Article | February 11, 2020

As a part of the Industry 4.0 movement, factory engineers are increasingly adopting some form of industrial Ethernet to interconnect the machines and other equipment implementing their production processes. Ethernet has been around in multiple forms for over 40 years. Most of it serves the IT community by interconnecting PCs and other equipment to a company LAN. Because of its flexibility, Ethernet has been adapted to many industrial uses.

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The Impact of Coronavirus on Electronic Manufacturing

Article | February 11, 2020

Wuhan, the epicenter of the outbreak, is considered a crucial hub in the middle of China, a place of high importance for the production of automobiles, electronics, optics, and fiber optics. Wuhan and surrounding cities in the Hubei province are currently on a government-imposed quarantine at a scale the world has never seen before, some Chinese officials have referred to the situation as warlike.

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Spotlight

LDV Consultants

LDV is an engineering firm with a team of talented people renowned for being experts in their field of activity. The company offers case studies, advanced design and implementation services for industrial projects. To carry out its projects, LDV relies on state-of-the-art software for design, 3D modeling, 3D printing, computer simulation and automation.

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INDUSTRIAL DATA

Datanomix and Vallen Partner to Bring Real-Time Factory Analytics to Industrial Manufacturers

Vallen | December 08, 2022

Datanomix, maker of the industry's only Automated Production Intelligence™ software platform, announced a partnership with Vallen to offer the Datanomix software solution to its wide range of manufacturing customers. Datanomix is well known for its No Operator Input™ approach to production monitoring. The partnership enables Vallen to offer the Datanomix solution to industrial customers seeking improvements as part of Industry 4.0 and industrial automation initiatives. "We are excited to welcome Vallen into the Datanomix Partners Program, It's clear that selling new technology to manufacturing customers requires a deep and successful history of selling value-added solutions. Vallen is a respected brand in the industrial market. They can now have conversations about adding a new layer of value by introducing our LIVE production intelligence software to the portfolio of solutions." -John Joseph, CEO of Datanomix. As part of the reseller program, Datanomix will train Vallen's Metalworking customer-facing team on selling, installing, and supporting its customers, with comprehensive information on the Datanomix platform and its benefits for precision manufacturers. "Several machine monitoring companies are selling basic utilization services to manufacturers today. We carefully evaluated the contenders and selected Datanomix for its true real-time job insights and ability to translate job performance to business impact. This aligns with Vallen's mission of creating value for our customers, The information presented by Datanomix accelerates time to information, shortens corrective action cycles, and directly impacts decision-making at exactly the right time. As Vallen focuses on innovation and our leadership position in metalworking solutions, we are truly excited to be offering Datanomix to our customers." -Chuck Delph, CEO of Vallen. The Datanomix solution automates the collection and analysis of manufacturing data and delivers deep insights into production performance, both in real-time and over time. Designed for growth-oriented precision manufacturers, the Datanomix platform delivers industry-leading innovation of manufacturing productivity with No Operator Input™ without burdening the end user with cumbersome analysis or data crunching. About Datanomix: Datanomix delivers Automated Production Intelligence for discrete manufacturers with No Operator Input™ required. Its core product set includes its flagship Production Monitoring system, along with Digital GEMBA Boards, and Condition Monitoring systems. Based in New Hampshire, Datanomix exists to provide manufacturers with out-of-the-box reports and workflows that align with the way manufacturing people already work without the need for manual data crunching or workflow disruption. About Vallen: Vallen is an industry leader in delivering flexible supply chain solutions and services along with a comprehensive range of maintenance, repair, operating, production, safety and electrical products to meet the growing supply needs of customers in facilities across North America and Europe.

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3D PRINTING

Desktop Metal Installations of Additive Manufacturing Systems for Metal Parts Now Surpass 1,100 Units Worldwide

Desktop Metal | December 07, 2022

Desktop Metal (NYSE: DM), a leader in mass production additive manufacturing (AM) solutions, today announced the company has installed more than 1,100 3D printing systems for metal components worldwide. More than 80% of installed systems worldwide are direct metal 3D printing systems. Among sand 3D printing systems, which are used for the final production of digital metal castings, more than half of the installed systems are now located at multi-system sites dedicated to high-throughput mass production applications. A significant number of metal binder jet systems are also being used to print technical ceramics, most often silicon carbide. “As the highest throughput process in 3D printing, binder jetting is the additive manufacturing technology that will truly take the industry into mass production at high volumes, Our 3D printing systems are already being used to manufacture powertrain components, automotive interiors, oil and gas, food processing equipment, hydraulics and some of the most advanced aerospace and nuclear parts.” -Ric Fulop, Founder and CEO of Desktop Metal. Binder Jet is a Differentiated AM Solution Binder jet 3D printing is one of seven additive manufacturing processes recognized by ASTM. The process transforms virtually any powdered materials — metal, sand or ceramic — into functional precision parts and tools at high speeds. An industrial printhead selectively deposits a binder into a bed of powder particles creating a solid part one thin layer at a time, just like printing on sheets of paper. The technology is viewed as a desirable and sustainable production method, largely because of its high speed, low waste and cost, as well as material flexibility. Desktop Metal offers the world’s leading portfolio of binder jet 3D printing systems, backed by the most experienced binder jet team in the industry. In addition to Desktop Metal’s binder jet systems for production of metal and ceramics, the company’s ExOne brand offers world-leading sand binder jet systems for digital metal casting, and the company’s Forust brand offers turnkey binder jet printing of upcycled wood waste. The company’s portfolio offers the widest selection of mass production solutions for metal 3D printing: The Production System™ P-50 — the world’s fastest metal binder jet system, offering the lowest cost per part, featuring Single Pass Jetting (SPJ) technology. The X160Pro™ — the world’s largest binder jet system for the production of both metal and ceramics, featuring Triple Advanced Compaction Technology (ACT). The S-Max® Pro — the world’s best selling brand of sand binder jet 3D printing systems for sandcasting molds and cores for aluminum and ferrous metal castings. The S-Max® Flex — an affordable binder jet 3D printing system for digital sandcastings. The Production System™ P-1 — the world’s best selling platform for qualifying binder jet 3D printing for serial production. The InnoventX™ — the world’s best-selling metal binder jet system in academia. The Shop System™ — the world’s best-selling metal binder jet system. The Studio System™ — the best-selling Bound Metal Deposition (BMD) system with only two steps and the widest material selection offered in its category. An open house to showcase the performance capabilities of the Production System P-50 will be held on Wednesday, Jan. 25. Manufacturers interested in adopting the technology can sign up to attend at teamdm.com/p-50-open-house. About Desktop Metal: Desktop Metal, Inc., based in Burlington, Massachusetts, is accelerating the transformation of manufacturing with an expansive portfolio of 3D printing solutions, from rapid prototyping to mass production. Founded in 2015 by leaders in advanced manufacturing, metallurgy, and robotics, the company is addressing the unmet challenges of speed, cost, and quality to make additive manufacturing an essential tool for engineers and manufacturers around the world. Desktop Metal was selected as one of the world’s 30 most promising Technology Pioneers by the World Economic Forum and named to MIT Technology Review’s list of 50 Smartest Companies

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DIGITAL TRANSFORMATION

Priefert Selects River Logic to Enhance its Advanced Modeling Capabilities

Priefert | December 07, 2022

River Logic, a leading provider of advanced prescriptive analytics technology platform, announced that Priefert, a leading manufacturer and distributor of agricultural products, will use River Logic's Network Design Optimization technology platform as the company undergoes a digital transformation to improve efficiencies across all aspects of manufacturing. "River Logic's Production Scheduling Optimization solution provides us with more advanced capabilities as we look to take optimization to the next level across the enterprise, In the near term, the software will enable us to make scheduling, inventory, and substitutions decisions more quickly, allowing for faster manufacturing throughput and fine-tuned granularity of detail. In addition, we expect to alleviate potential bottlenecks by reducing inventory concerns, and significantly reduce the time it takes to run scenario modeling, which in turn, will enable us to make more accurate long-term decisions that are informed and data-driven and cost savings." -Robert Dickson, Director of Cost Management,Priefert. We're excited to partner with Priefert to scale their Production Scheduling Optimization to a more advanced level and help them achieve efficiencies across their operations and manufacturing with visibility to help drive better financial performance," said Carlos Centurion, President of River Logic. "Working in conjunction with the management team at Priefert, we are confident in our abilities to help them speed manufacturing throughput via replacements and planning substitution – tactics that that will allow them to identify optimization opportunities for cost minimization, revenue maximization, capacity planning and inventory management." About Priefert: Priefert Manufacturing Company, Inc. manufactures and distributes livestock handling equipment. The Company produces and markets cattle handling equipment, horse stalls, round pens, water tanks, feeders, kennels, gates, fencing, and various other steel fabrication items. Priefert Manufacturing supplies dealers throughout the world from its operations in the State of Texas. About River Logic: Technology from Texas-based River Logic creates the confidence leaders need to solve complex planning problems across the enterprise. Purpose-built for business users, their platform enables end-to-end business optimization via advanced analytics and a revolutionary cloud experience that offers rapid scenario collaboration, data management, workflows, BI reporting, scalability, and more.

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INDUSTRIAL DATA

Datanomix and Vallen Partner to Bring Real-Time Factory Analytics to Industrial Manufacturers

Vallen | December 08, 2022

Datanomix, maker of the industry's only Automated Production Intelligence™ software platform, announced a partnership with Vallen to offer the Datanomix software solution to its wide range of manufacturing customers. Datanomix is well known for its No Operator Input™ approach to production monitoring. The partnership enables Vallen to offer the Datanomix solution to industrial customers seeking improvements as part of Industry 4.0 and industrial automation initiatives. "We are excited to welcome Vallen into the Datanomix Partners Program, It's clear that selling new technology to manufacturing customers requires a deep and successful history of selling value-added solutions. Vallen is a respected brand in the industrial market. They can now have conversations about adding a new layer of value by introducing our LIVE production intelligence software to the portfolio of solutions." -John Joseph, CEO of Datanomix. As part of the reseller program, Datanomix will train Vallen's Metalworking customer-facing team on selling, installing, and supporting its customers, with comprehensive information on the Datanomix platform and its benefits for precision manufacturers. "Several machine monitoring companies are selling basic utilization services to manufacturers today. We carefully evaluated the contenders and selected Datanomix for its true real-time job insights and ability to translate job performance to business impact. This aligns with Vallen's mission of creating value for our customers, The information presented by Datanomix accelerates time to information, shortens corrective action cycles, and directly impacts decision-making at exactly the right time. As Vallen focuses on innovation and our leadership position in metalworking solutions, we are truly excited to be offering Datanomix to our customers." -Chuck Delph, CEO of Vallen. The Datanomix solution automates the collection and analysis of manufacturing data and delivers deep insights into production performance, both in real-time and over time. Designed for growth-oriented precision manufacturers, the Datanomix platform delivers industry-leading innovation of manufacturing productivity with No Operator Input™ without burdening the end user with cumbersome analysis or data crunching. About Datanomix: Datanomix delivers Automated Production Intelligence for discrete manufacturers with No Operator Input™ required. Its core product set includes its flagship Production Monitoring system, along with Digital GEMBA Boards, and Condition Monitoring systems. Based in New Hampshire, Datanomix exists to provide manufacturers with out-of-the-box reports and workflows that align with the way manufacturing people already work without the need for manual data crunching or workflow disruption. About Vallen: Vallen is an industry leader in delivering flexible supply chain solutions and services along with a comprehensive range of maintenance, repair, operating, production, safety and electrical products to meet the growing supply needs of customers in facilities across North America and Europe.

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3D PRINTING

Desktop Metal Installations of Additive Manufacturing Systems for Metal Parts Now Surpass 1,100 Units Worldwide

Desktop Metal | December 07, 2022

Desktop Metal (NYSE: DM), a leader in mass production additive manufacturing (AM) solutions, today announced the company has installed more than 1,100 3D printing systems for metal components worldwide. More than 80% of installed systems worldwide are direct metal 3D printing systems. Among sand 3D printing systems, which are used for the final production of digital metal castings, more than half of the installed systems are now located at multi-system sites dedicated to high-throughput mass production applications. A significant number of metal binder jet systems are also being used to print technical ceramics, most often silicon carbide. “As the highest throughput process in 3D printing, binder jetting is the additive manufacturing technology that will truly take the industry into mass production at high volumes, Our 3D printing systems are already being used to manufacture powertrain components, automotive interiors, oil and gas, food processing equipment, hydraulics and some of the most advanced aerospace and nuclear parts.” -Ric Fulop, Founder and CEO of Desktop Metal. Binder Jet is a Differentiated AM Solution Binder jet 3D printing is one of seven additive manufacturing processes recognized by ASTM. The process transforms virtually any powdered materials — metal, sand or ceramic — into functional precision parts and tools at high speeds. An industrial printhead selectively deposits a binder into a bed of powder particles creating a solid part one thin layer at a time, just like printing on sheets of paper. The technology is viewed as a desirable and sustainable production method, largely because of its high speed, low waste and cost, as well as material flexibility. Desktop Metal offers the world’s leading portfolio of binder jet 3D printing systems, backed by the most experienced binder jet team in the industry. In addition to Desktop Metal’s binder jet systems for production of metal and ceramics, the company’s ExOne brand offers world-leading sand binder jet systems for digital metal casting, and the company’s Forust brand offers turnkey binder jet printing of upcycled wood waste. The company’s portfolio offers the widest selection of mass production solutions for metal 3D printing: The Production System™ P-50 — the world’s fastest metal binder jet system, offering the lowest cost per part, featuring Single Pass Jetting (SPJ) technology. The X160Pro™ — the world’s largest binder jet system for the production of both metal and ceramics, featuring Triple Advanced Compaction Technology (ACT). The S-Max® Pro — the world’s best selling brand of sand binder jet 3D printing systems for sandcasting molds and cores for aluminum and ferrous metal castings. The S-Max® Flex — an affordable binder jet 3D printing system for digital sandcastings. The Production System™ P-1 — the world’s best selling platform for qualifying binder jet 3D printing for serial production. The InnoventX™ — the world’s best-selling metal binder jet system in academia. The Shop System™ — the world’s best-selling metal binder jet system. The Studio System™ — the best-selling Bound Metal Deposition (BMD) system with only two steps and the widest material selection offered in its category. An open house to showcase the performance capabilities of the Production System P-50 will be held on Wednesday, Jan. 25. Manufacturers interested in adopting the technology can sign up to attend at teamdm.com/p-50-open-house. About Desktop Metal: Desktop Metal, Inc., based in Burlington, Massachusetts, is accelerating the transformation of manufacturing with an expansive portfolio of 3D printing solutions, from rapid prototyping to mass production. Founded in 2015 by leaders in advanced manufacturing, metallurgy, and robotics, the company is addressing the unmet challenges of speed, cost, and quality to make additive manufacturing an essential tool for engineers and manufacturers around the world. Desktop Metal was selected as one of the world’s 30 most promising Technology Pioneers by the World Economic Forum and named to MIT Technology Review’s list of 50 Smartest Companies

Read More

DIGITAL TRANSFORMATION

Priefert Selects River Logic to Enhance its Advanced Modeling Capabilities

Priefert | December 07, 2022

River Logic, a leading provider of advanced prescriptive analytics technology platform, announced that Priefert, a leading manufacturer and distributor of agricultural products, will use River Logic's Network Design Optimization technology platform as the company undergoes a digital transformation to improve efficiencies across all aspects of manufacturing. "River Logic's Production Scheduling Optimization solution provides us with more advanced capabilities as we look to take optimization to the next level across the enterprise, In the near term, the software will enable us to make scheduling, inventory, and substitutions decisions more quickly, allowing for faster manufacturing throughput and fine-tuned granularity of detail. In addition, we expect to alleviate potential bottlenecks by reducing inventory concerns, and significantly reduce the time it takes to run scenario modeling, which in turn, will enable us to make more accurate long-term decisions that are informed and data-driven and cost savings." -Robert Dickson, Director of Cost Management,Priefert. We're excited to partner with Priefert to scale their Production Scheduling Optimization to a more advanced level and help them achieve efficiencies across their operations and manufacturing with visibility to help drive better financial performance," said Carlos Centurion, President of River Logic. "Working in conjunction with the management team at Priefert, we are confident in our abilities to help them speed manufacturing throughput via replacements and planning substitution – tactics that that will allow them to identify optimization opportunities for cost minimization, revenue maximization, capacity planning and inventory management." About Priefert: Priefert Manufacturing Company, Inc. manufactures and distributes livestock handling equipment. The Company produces and markets cattle handling equipment, horse stalls, round pens, water tanks, feeders, kennels, gates, fencing, and various other steel fabrication items. Priefert Manufacturing supplies dealers throughout the world from its operations in the State of Texas. About River Logic: Technology from Texas-based River Logic creates the confidence leaders need to solve complex planning problems across the enterprise. Purpose-built for business users, their platform enables end-to-end business optimization via advanced analytics and a revolutionary cloud experience that offers rapid scenario collaboration, data management, workflows, BI reporting, scalability, and more.

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